沸石中违反洛温斯坦规则的情况。

Violations of Löwenstein's rule in zeolites.

作者信息

Fletcher Rachel E, Ling Sanliang, Slater Ben

机构信息

Department of Chemistry , University College London , 20 Gordon Street , London , WC1H 0AJ , UK . Email:

出版信息

Chem Sci. 2017 Nov 1;8(11):7483-7491. doi: 10.1039/c7sc02531a. Epub 2017 Sep 5.

DOI:10.1039/c7sc02531a

PMID:29163901

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5676096/

Abstract

Zeolites, microporous aluminosilicates, are amongst the most widely used catalysts in the petrochemical industry. Zeolite catalytic functionality is influenced by the location of tetrahedral alumina and associated counter-cations in the aluminosilicate framework, yet little is definitively known about the factors that govern the framework aluminium arrangement. It is generally accepted that all zeolites obey Löwenstein's rule of "aluminium avoidance", and that -Al-O-Al- bond formation is forbidden. Here, we describe an unprecedented screening of aluminium distribution in catalytically active zeolite SSZ-13 (CHA) in both its protonated and sodium-containing forms, H-SSZ-13 and Na-SSZ-13, using density functional theory (DFT). We predict violations of Löwenstein's rule in high and low silica H-SSZ-13 and other protonated frameworks considered in this investigation: H-LTA, H-RHO, H-ABW and H-MOR. The synthetic realisation of these zeolites could spur the development of new catalytic routes and materials, and the optimisation of existing zeolite catalysts.

摘要

沸石，即微孔铝硅酸盐，是石油化学工业中使用最广泛的催化剂之一。沸石的催化功能受铝硅酸盐骨架中四面体氧化铝和相关抗衡阳离子位置的影响，但对于控制骨架铝排列的因素，人们知之甚少。人们普遍认为，所有沸石都遵循洛温斯坦的“铝规避”规则，即禁止形成 -Al-O-Al- 键。在此，我们使用密度泛函理论（DFT），以前所未有的方式对催化活性沸石 SSZ-13（CHA）的质子化形式和含钠形式 H-SSZ-13 和 Na-SSZ-13 中的铝分布进行了筛选。我们预测在高硅和低硅 H-SSZ-13 以及本研究中考虑的其他质子化骨架：H-LTA、H-RHO、H-ABW 和 H-MOR 中，洛温斯坦规则会被违反。这些沸石的合成实现可能会推动新催化路线和材料的开发，以及现有沸石催化剂的优化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7638/5676096/66729fee44a7/c7sc02531a-f1.jpg

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沸石中违反洛温斯坦规则的情况。

Violations of Löwenstein's rule in zeolites.

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